Figure 6.
Long-term treatment with VEGF activates NO synthesis which nitrosylates NSF and inhibits exocytosis. (A) VEGF activates eNOS phosphorylation. HAECs were pretreated with 50 ng/mL VEGF for 30 minutes, and total cell lysates were immunoblotted with antibody to phospho-eNOS or eNOS. (B) VEGF activates NO synthesis. HAECs were treated with 50 ng/mL VEGF for 30 minutes, and the \(\mathrm{NO}_{2}^{-}\)
in the supernatant was measured by the Griess reaction (n = 3 ± SD; **P < .01 versus control). (C) Inhibition of endogenous NOS increases VEGF-induced VWF release. HAECs were pretreated with 1 mM L-NAME for 16 hours, washed, and then incubated with 50 ng/mL VEGF for 2 hours. Cells were washed and treated with VEGF 50 ng/mL for 1 hour, and the amount of VWF released from cells into the media was measured by an ELISA (n = 3 ± SD; **P < .01 for VEGF versus VEGF + L-NAME). (D) Exogenous NO decreases VEGF-induced VWF release from human aortic endothelial cells. HAECs were pretreated with SNAP for 4 hours, washed, and then incubated with 50 ng/mL VEGF for 1 hour. The amount of VWF released from cells into the media was measured by an ELISA (n = 3 ± SD; **P < .01 versus 0 μM SNAP). (E) VEGF activates nitrosylation of NSF. HAECs were treated with 50 ng/mL VEGF, and cells were harvested at various times after treatment. Cell lysates were immunoprecipitated with antibody to nitrosocysteine and immunoblotted with antibody to NSF.
![Figure 6. Long-term treatment with VEGF activates NO synthesis which nitrosylates NSF and inhibits exocytosis. (A) VEGF activates eNOS phosphorylation. HAECs were pretreated with 50 ng/mL VEGF for 30 minutes, and total cell lysates were immunoblotted with antibody to phospho-eNOS or eNOS. (B) VEGF activates NO synthesis. HAECs were treated with 50 ng/mL VEGF for 30 minutes, and the \batchmode \documentclass[fleqn,10pt,legalpaper]{article} \usepackage{amssymb} \usepackage{amsfonts} \usepackage{amsmath} \pagestyle{empty} \begin{document} \(\mathrm{NO}_{2}^{-}\) \end{document} in the supernatant was measured by the Griess reaction (n = 3 ± SD; **P < .01 versus control). (C) Inhibition of endogenous NOS increases VEGF-induced VWF release. HAECs were pretreated with 1 mM L-NAME for 16 hours, washed, and then incubated with 50 ng/mL VEGF for 2 hours. Cells were washed and treated with VEGF 50 ng/mL for 1 hour, and the amount of VWF released from cells into the media was measured by an ELISA (n = 3 ± SD; **P < .01 for VEGF versus VEGF + L-NAME). (D) Exogenous NO decreases VEGF-induced VWF release from human aortic endothelial cells. HAECs were pretreated with SNAP for 4 hours, washed, and then incubated with 50 ng/mL VEGF for 1 hour. The amount of VWF released from cells into the media was measured by an ELISA (n = 3 ± SD; **P < .01 versus 0 μM SNAP). (E) VEGF activates nitrosylation of NSF. HAECs were treated with 50 ng/mL VEGF, and cells were harvested at various times after treatment. Cell lysates were immunoprecipitated with antibody to nitrosocysteine and immunoblotted with antibody to NSF.](https://ash.silverchair-cdn.com/ash/content_public/journal/blood/105/1/10.1182_blood-2004-04-1519/6/zh80010571600006.jpeg?Expires=1722445145&Signature=378dM96aqzC-qbHlqUEaCdAhNzX5m4s5V5qcGKYZ0VWcVbZ-flzFBYit~NmhUK96wYi7vI7F9SNsV0Fxg6bAiEc7VAwcDxUiHNKbBRUunl0TtddsZFR7MBP6XajIuHIpf8fJKeldTJikgLZyL3cb1wVf~Xh~2e4yCXhDHNKxdN0H0bcWOC2pZBCdK~AqLHZRCU0wklwVa705m7WlhzBIhjwO1EUVWMZIrAj5F4OcXUqMPE26e390LpCvDHlJYKdJZEZphBetrqYhm-rTWLvraF1dArBL8hSyjXeAUItsDSrSW2kJCWu1GS~8bqstRE7OlyO3ZxT-HvrGC-zvhxGfiA__&Key-Pair-Id=APKAIE5G5CRDK6RD3PGA)
